Behavioral nociceptive responses evoked by relatively high rates of noxious radiant skin heating appear to be mediated by A delta nociceptor activation, whereas responses evoked by low rates of skin heating appear to be mediated by the activation of C-fiber nociceptors. This hypothesis was confirmed by the results of single unit recordings of A delta and C nociceptive afferent fibers isolated from the saphenous nerves of pentobarbital anesthetized rats. Heating the hind paw skin of the rat at a relatively high rate of 6.5 degrees C/sec activated A delta units within 2 sec after the onset of the stimulus. This response latency is similar to the 2.5 sec latency of the foot withdrawal response to a similar stimulus. In contrast, C-fibers were only slightly activated at a longer latency of 5-6 sec. Conversely, heating the hind paw skin at a relatively low rate of 0.9 degrees C/sec activated C-fibers, but evoked only a few action potentials in A delta nociceptors. C-fibers began firing at a rate less than 1 Hz between 8 and 10 sec after the onset of heating and fired at a mean rate of 1.5 Hz between 10 and 12 sec, which corresponds to the latency of the foot withdrawal response. Topical application of capsaicin to the hind paw skin decreased the latency of C-fiber responses from control values of 8-12 sec to approximately 4 sec after topical capsaicin treatment. The mean latency of the foot withdrawal response to skin heating at the low rate is also reduced from control values of 12-14 sec to 4-5 sec after capsaicin treatment. In contrast, capsaicin treatment did not significantly affect the responses of A delta nociceptors. These results support the conclusion that nociceptive foot withdrawal responses to a low rate of skin heating are mediated predominantly by the activation of C-fiber nociceptors. These results provide direct evidence that, under the conditions of these experiments, nociceptive foot withdrawal responses evoked by high rates of skin heating are primarily mediated by A delta nociceptors, and foot withdrawal responses evoked by low rates of skin heating are primarily mediated by C-fiber nociceptors.
Several lines of evidence suggest that different classes of nociceptive afferents mediate the responses produced by different rates of noxious skin heating. More specifically, low skin heating rates evoke nociceptive responses that appear to be mediated by the activation of capsaicin-sensitive C-fiber nociceptors, whereas high skin heating rates appear to produce responses mediated by the activation of other nociceptors. This hypothesis was examined by both electrophysiological and behavioral experiments. This report describes the results of experiments designed to determine whether pharmacologic treatments that selectively alter the activity of C-fiber nociceptive afferents also produce selective effects on foot withdrawal responses to either high or low rates of noxious foot heating. The results of these experiments demonstrate that: (1) topical application of a low concentration of capsaicin, which sensitizes C-fiber nociceptors, selectively decreased the latency of responses to low heating rates; (2) topical application of a high concentration of capsaicin, that desensitizes C-fiber nociceptors, selectively increased the latency of responses to low heating rates; (3) low doses of systemic morphine, which selectively attenuate nociception produced by the activation of C-fiber nociceptors, selectively increased response latencies for low skin heating rates. These results support the conclusion that foot withdrawal responses evoked by low skin heating rates are mediated by the activation of capsaicin-sensitive C-fiber nociceptors and foot withdrawal responses evoked by high skin heating rates are mediated by the activation of other nociceptors. This conclusion is supported by the results of the accompanying electrophysiological study which provides direct evidence that low rates of skin heating preferentially activate C-fiber nociceptors while high rates of skin heating preferentially activate A delta nociceptors.
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